Abstract : Preeclampsia (PE) is an hypertensive disorder of pregnancy characterized by a generalized endothelial dysfunction where the response to vasodilatation signals is compromised. The binding of serotonin to its S[subscript 2] receptor subtype 2 releases vasoconstrictor molecules which, by a positive retroaction loop, stimulates the release of more serotonin from platelets. This positive retroaction loop stimulates the vasoconstriction of blood vessels and contributes to the hypertension in women with PE. Previously, we showed that Bisphenol A (BPA) accumulates more in the placenta of women with PE than in normotensive women. This accumulation may be the result of an impaired metabolization due to the action of the β-Glucuronidase (GUSB). Animal studies showed that BPA at high dose could lower the activity of the monoamine oxidase A (MAO-A), an enzyme implicated in the metabolism of serotonin. We studied the impact of BPA at low dose (10 ng/ml) in trophoblastic primary cells and showed that even at low dose, BPA can lower its activity without affecting the protein expression. To determine if GUSB could be the cause of the BPA accumulation in women with PE, we studied its activity and protein expression in placental biopsies from women with and without PE. A nonsignificant tendency showed that the GUSB activity and protein expression were higher in women with PE. To study the impact of placental metabolism in the fetal exposure, we studied the relation between maternal and fetal concentrations of BPA with linear regression analysis and Spearman’s correlation. We showed that maternal BPA could not precisely predict the fetal exposure and that the placental metabolism is probably limited in light of the strong correlation between both variables. This strong correlation also implied that high maternal exposure would result in high fetal exposure. This study shows that the accumulation of BPA in preeclamptic women could contribute to maternal hypertension by interacting with serotonin levels. This accumulation could partially be attributed to a higher GUSB, but other factors are probably implicated. The strong correlation between maternal and fetal exposure implies that the placental metabolism of BPA is limited and does not protect the fetus significantly. This study suggests the basis of a mechanism explaining the abnormal accumulation of BPA in the placenta in women with PE and its impact on the placental MAO-A and potentially, the foetal MAO-A because of its physico-chemical properties.